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Tim Pengampu MK. Botani
Prof. Dr. Ir. SM. SitompulProf. Dr. Ir. Tatik Wardiyati, MSDr. Ir. Ellis Nihayati, MS.Dr. Ir. Titik Islami, MS.Dr. Ir. M. Dawam Maghfur, MSIr. M. Nawawi, MSIr. Sunaryo, SUIr. Koesriharti, MSMoh. Roviq, SP.MPWisnu E. Murdiyanto, SP.MP Dr.agr. Nunun Barunawati, SP.MP
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SISTEM PEMBELAJARANMATA KULIAH: BOTANI
METODE
STUDENT CENTERED LEARNING (SCL)
BUKANTEACHER CENTERED LEARNING (TCL)
MATERI1. Pendahuluan2. Tubuh Tanaman / Plant Structure3. Sel, Jaringan & Sistem Jaringan4. Batang & Akar5. Daun6. Bunga7. Buah & Biji8. Taxonomy9. Chemistry of Life10. Mitosis11. Meiosis12. Genetic & Inheritance13. Population Ecology & Ecosystem14. Plant Evolution
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Definisi Botany, plant science(s), phytology, or plant
biology is a branch of biology and is the scientific study of
plant life and development.
Botany covers a wide range of scientific disciplines that study plants, algae, and fungi including:
structure, growth, reproduction, metabolism, development, diseases, and chemical properties and evolutionary relationships between the different groups.
The study of plants and botany began with tribal lore, used to identify edible, medicinal and poisonous plants, making botany one of the oldest sciences. From this ancient interest in plants, the scope of botany has increased to include the study of over 550,000 kinds or species of living organisms.
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Scope and importance of botany
• As with other life forms in biology, plant life can be studied from different perspectives, from the molecular, genetic and biochemical level through organelles, cells, tissues, organs, individuals, plant populations, and communities of plants. At each of these levels a botanist might be concerned with the classification (taxonomy), structure (anatomy and morphology), or function (physiology) of plant life.
• Historically, botany covered all organisms that were not considered to be animals. Some of these organisms are no longer considered to be part of the plant kingdom – these include fungi (studied in mycology), lichens (lichenology), bacteria (bacteriology), viruses (virology) and single-celled algae, which are now grouped as part of the Protista. However, attention is still given to these groups by botanists, and fungi, lichens, bacteria and photosynthetic protists are usually covered in introductory botany courses.
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Scope and importance of botany• The study of plants has importance for a number of reasons.
Plants are a fundamental part of life on Earth. They generate the oxygen, food, fibres, fuel and medicine that allow higher life forms to exist. Plants also absorb carbon dioxide through photosynthesis, a minor greenhouse gas that in large amounts can affect global climate. It is believed that the evolution of plants has changed the global atmosphere of the earth early in the earth's history and paleobotanists study ancient plants in the fossil record. A good understanding of plants is crucial to the future of human societies as it allows us to:
• Produce food to feed an expanding population • Understand fundamental life processes • Produce medicine and materials to treat diseases and other
ailments • Understand environmental changes more clearly
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Human nutrition • Virtually all foods eaten come from plants, either directly from
staple foods and other fruit and vegetables, or indirectly through livestock or other animals, which rely on plants for their nutrition. Plants are the fundamental base of nearly all food chains because they use the energy from the sun and nutrients from the soil and atmosphere and convert them into a form that can be consumed and utilized by animals; this is what ecologists call the first trophic level.
• Botanists also study how plants produce food we can eat and how to increase yields and therefore their work is important in mankind's ability to feed the world and provide food security for future generations, for example through plant breeding.
• Botanists also study weeds, plants which are considered to be a nuisance in a particular location. Weeds are a considerable problem in agriculture, and botany provides some of the basic science used to understand how to minimize 'weed' impact in agriculture and native ecosystems. Ethnobotany is the study of the relationships between plants and people.
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Fundamental life processes
• Plants are convenient organisms in which fundamental life processes (like cell division and protein synthesis for example) can be studied, without the ethical dilemmas of studying animals or humans.
• The genetic laws of inheritance were discovered in this way by Gregor Mendel, who was studying the way pea shape is inherited. What Mendel learned from studying plants has had far reaching benefits outside of botany. Additionally, Barbara McClintock discovered 'jumping genes' by studying maize. These are a few examples that demonstrate how botanical research has an ongoing relevance to the understanding of fundamental biological processes.
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• Many medicinal and recreational drugs, like tetrahydrocannabinol, caffeine, and nicotine come directly from the plant kingdom. Others are simple derivatives of botanical natural products; for example aspirin is based on the pain killer salicylic acid which originally came from the bark of willow trees.[2] There may be many novel cures for diseases provided by plants, waiting to be discovered. Popular stimulants like coffee, chocolate, tobacco, and tea also come from plants. Most alcoholic beverages come from fermenting plants such as barley (beer), rice (saki) and grapes (wine).
• Plants also provide us with many natural materials, such as cotton, wood, paper, linen, vegetable oils, some types of rope, and rubber. The production of silk would not be possible without the cultivation of the mulberry plant. Sugarcane, rapeseed, soy and other plants with a highly-fermentable sugar or oil content have recently been put to use as sources of biofuels, which are important alternatives to fossil fuels, see biodiesel.KRT-2011 9
Medicine and Material
Environmental changes • Plants can also help us understand changes in on our
environment in many ways.• Understanding habitat destruction and species extinction is
dependent on an accurate and complete catalog of plant systematics and taxonomy.
• Plant responses to ultraviolet radiation can help us monitor problems like the ozone depletion.
• Analyzing pollen deposited by plants thousands or millions of years ago can help scientists to reconstruct past climates and predict future ones, an essential part of climate change research.
• Recording and analyzing the timing of plant life cycles are important parts of phenology used in climate-change research.
• Lichens, which are sensitive to atmospheric conditions, have been extensively used as pollution indicators.
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Subdisciplines of Botany • Agronomy—Application of plant science to crop production • Bryology—Mosses, liverworts, and hornworts • Economic botany—The place of plants in economics • Ethnobotany—Relationship between humans and plants • Forestry—Forest management and related studies • Horticulture—Cultivated plants • Paleobotany—Fossil plants • Palynology—Pollen and spores • Phycology - Algae • Phytochemistry—Plant secondary chemistry and chemical processes • Phytopathology—Plant diseases • Plant anatomy—Cell and tissue structure • Plant ecology—Role of plants in the environment • Plant genetics—Genetic inheritance in plants • Plant morphology—Structure and life cycles • Plant physiology—Life functions of plants • Plant systematics—Classification and naming of plants
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HUBUNGAN ANTARA BOTANI DENGAN BERBAGAI ILMU TERKAITHUBUNGAN ANTARA BOTANI DENGAN BERBAGAI ILMU TERKAIT
Genetika Fisiologi Ekologi Fitopatologi
Patologi Morfologi Anatomi HistologiSitologi
Taksonomi
Botani lapangan
Kehutanan
Perikanan
Botani ekonomi
STRUKTU
R FUNGSI
KLASIFIKASI
IDENTIFIKASI
BOTANI
TERAPA
N
BOTANI
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Fisiologi
Pengetahuan morfologi dan anatomi daun digunakan sebagai dasar mempelajari proses fisiologi: fotosintesis di daun. Ketika klorofil menyerap cahaya untuk sintesis karbohidrat
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Perbedaan warna pada organ tumbuhan
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Modifikasi organ pada perbanyakan vegetatif
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Modifikasi organ pada perbanyakan vegetatif
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Modifikasi organ pada perbanyakan vegetatif
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Tanaman epifit dan parasit
PLANT STRUCTURE
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How do plants make their own food ?
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Making food
• Green plants are the only living things which can make their own food.
• This process is called photosynthesis.
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• Leaves are green in colour because they contain chlorophyll.
• Chlorophyll is needed in photosynthesis.
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Making food
What does the plant need ?
For photosynthesis to take place a plant needs
• Carbon dioxide from the air• Light from the sun • Water from the rain• Chlorophyll from the leaves
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What then … ?
• When the plant has all of these things …
… photosynthesis
can take place.
• The plant produces sugar and oxygen.
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A closer look at photosynthesis
2. Light in
Oxygen out
1. Carbon dioxide in
3. Water in
Food out
4. Chlorophyll is already in green leaves
REFERENSI1. BOTANY, An Introduction on Plant Biology, 1974 By : T. Elliot Weles, C. Ralph Stocking and Michael G. Barbour
2. BOTANY, Principle and Problems, 1976 By : Edmuno W. Sinnot and Katherine S. Wilson
3. BOTANI UMUM : 1, 2, 3 (1985) By : Prof.Dr.Ir.H. Siti Sutarmi Tjitrosoma, M.Sc
5. BIOLOGI: 1, 2, 3 (2003) By: Campbell, N.A.; J.B. Reece and L.G. Mitchell
6. CELL BIOLOGY, Second Edition, 2007 By : Pollard, Thomas D and Earnshaw, William C
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